DE69114238T3 - Method for selecting the reception frequency for an RDS receiver. - Google Patents

Description

These The invention relates to a method for selecting a reception frequency and in particular a method for selecting a reception frequency for one Radio Data System receiver.

In Europe is a radio data system (radio data system, below designated as RDS) for providing a radio station radio service as a well-known radio service generally in use. In such a RDS will be informative data related to radio programs of Broadcasting stations in a multiplex modulation simultaneously with transmitted to the radio programs, and upon reception of the broadcasting waves, the broadcasting radio will pick up the radio the base of demodulated data is selected a desired broadcast program.

The RDS is a member of the Europe Broadcasting Union (EBU (European Broadcasting Union)) standardized data system in which the data relating to the Broadcasting such as radio programs and the like. In a two-phase DPSK (Differential Phase Shift Keying) signal, the have a bit rate of 1187.5 bps, are encoded and encoded Data corresponding to frequency modulation of a 57 kHz subcarrier double-sided band carrier amplitude modulation with carrier suppression (double-sideband carrier suppression amplitude modulation).

In the RDS, as in the 1 of the accompanying drawings, which transmits the whole data as a unit called a group consisting of 104 bits. A single group consists of four blocks, each consisting of 26 bits. Each block consists of 26 bits, encode 16-bit information in a shortened cyclic code, and then add a 10-bit offset word corresponding to the same portion in the four blocks , This offset word provides synchronization under the group structure at the time of receiving the data. The data contained in each group is dictated by their localizations, 16 bits of the first block always designating a program identification (PI) code, while in the second block the first five bits indicate a group type code, the next bit is a traffic program identification code (TP Code (TP = traffic program) and the next five bits denote a program type code (PTY code (PTY = program type)).

In addition, will the contents of the remaining bits in the second block as well as in the third and fourth block respectively for each group type. The group type can be represented by a 5-bit information as a whole, in the the first four bits provide 16 different types of 0-15 can and then the remaining one bit each two versions A and B for the 16 different types from 0 - 15 provides differentiation from each other.

For example, in an in 2 In the third block, when the OA group shown in the second block is assigned a traffic announcement (TA) code (TA), the third block is a list of alternative frequency data (AF (Alternative Frequency)) for identification of radio network stations broadcasting the same program, and are program service name data (PS (program service)) for providing a broadcast information service such as names of broadcasting stations, names of broadcasting networks and the like in the fourth block.

at a motor vehicle-mounted RDS receiver encountered during the hearing a broadcast during Often the trip is a bad reception. However, it is with RDS broadcasting as described above, the AF data of the broadcast stations in the same Radio network, which stations the same broadcasting program various frequencies are broadcast, available, possible, in the same broadcasting network, based on the in a memory for tracking of the same broadcast program, AF data to select another broadcasting station, the a stronger one electric field strength or a larger signal level than that of the broadcasting station currently tuned to is.

TABELLE 1 Such a system is described in EP-A-0 211 366. In 3 For example, broadcasting stations A, B, C, D and E form a group of broadcasting stations belonging to the same broadcasting network. In the same broadcasting network all broadcasting stations broadcast the same broadcasting program but on different frequencies coded as corresponding AF data f _A , f _B , f _C , f _D and f _E, respectively. For example, each broadcast station transmits the AF data representing frequency data of adjacent broadcast stations, as shown in the following Table 1:

TABLE 1

First, by operating a tuner of the vehicle-mounted RDS receiver, the motorist selects the broadcast station A to receive a desired broadcast program. Secondly, when the motor vehicle leaves a service area of the broadcasting station A and enters a service area of the broadcasting station B, it is possible to set the receiving frequency of the vehicle-mounted RDS receiver on the basis of the AF data (f _B , f _C) transmitted from the broadcasting station A; f _Z , f _X ) from the frequency of the broadcasting station A to B, since the AF data f _B indicates that the same broadcasting program is available on a corresponding broadcasting frequency of the broadcasting station B. In the same way, if the motor vehicle, for example, as in 3 shown driving a route (via the broadcasting stations ABCDE) passing through the respective broadcasting service areas, the vehicle-mounted RDS receiver successively receives broadcasting waves after it leaves the service area of the broadcasting station A via the broadcasting stations B, C, D and then finally E and, as a result, provide the vehicle-mounted RDS receiver with good reception of the desired broadcast program.

The receiving frequency selection method of the prior art RDS receiver has been described above. In such an RDS receiver, when the vehicle after successively switching the reception of the broadcasting wave from the broadcasting station A via the broadcasting stations B, C and D to the broadcasting station E in a mountainous area along a dashed line in FIG 3 As shown in FIG. 1, the motor vehicle has once left the broadcast service area of the network and returns to the service area of the broadcast station A, very difficult to keep track of the same broadcast program unless the AF data for the broadcast station A are contained in the RF data group transmitted by the broadcasting station E.

It It is therefore an object of this invention to solve the problems encountered in the art RDS receiver of the prior art are found to eliminate and a provide a new receive frequency selection method for an RDS receiver, in which the pursuit of the same radio program resumed can be when the motor vehicle, after there is a service area a broadcasting network, to the service area of the broadcasting network, in which the same broadcast program from several radio stations has been received, or to a neighboring broadcast service area returns.

Out DE-C1-39 17 236 is an RDS radio receiver according to the preamble of the claim 1, in which a list of previously received alternative Frequencies along with a count, how often this alternative frequency has been received is stored is.

According to the present invention there is provided a receive frequency selection method for an RDS receiver comprising the steps of:
Receiving RDS broadcast waves containing a list of alternative frequency data (AF) for a group of broadcast stations (AE) in the same broadcast network and program identification codes (PI),
Storing a list of alternative frequency data transmitted from a currently received broadcast station (AE) in addition to the stored list of alternative frequency data for previously received broadcast stations to generate a new list of alternative frequency data;
Following the same broadcast program by varying a receive frequency of the RDS receiver to a frequency corresponding to one of the list of alternative frequency data (AF) for presently and previously received broadcast stations (AE), characterized in that
the tracking step takes place to maintain a received signal level at or above a predetermined receiving level or that of the currently in contact with the broadcasting station, and
the new list has a count associated with each alternate frequency (AF), the method including the step of changing the count to indicate how recently the associated alternate frequency has been received.

Consequently are transmitted earlier by the contacting radio stations stored list of alternative frequency data and stored Data relating to frequencies of the received broadcast waves during the Operation of following the same radio program in a row of operations to track the same broadcast program simultaneously used.

Accordingly, even if the motor vehicle leaves the broadcasting service area of the broadcasting network has, the RDS receiver, whenever the motor vehicle to the same broadcasting service area of the network in which the list of alternative frequency data is effective for use, returns, the operation for tracking the same broadcast program the base of the stored list of alternative frequency data initiate.

advantageously, can if the memory with the list to be saved from alternative Frequency data overflows and something from the stored list of alternative frequency data to delete is to save this situation by using the frequencies of the received radio waves corresponding list of alternative Frequencies are passed through.

The The invention will be described by way of non-limiting example with reference to FIGS attached Drawings further described in which:

1 Fig. 12 is a schematic diagram showing an RDS data format;

2 Fig. 12 is a schematic diagram showing an example of the RDS data;

3 Fig. 11 is an illustrative diagram showing a change of frequencies along a travel route for receiving broadcast waves broadcast by broadcast stations belonging to the same broadcast network;

4 Fig. 12 is a block diagram showing an RDS receiver for implementing a reception frequency selection method embodying the present invention;

5 a flow chart is the operation steps for registration by a in the RDS receiver of 4 installed controller shows AF data to be implemented;

6 a flowchart is that of the in the RDS receiver of the 4 installed controller shows operational steps to be implemented for selecting broadcast stations in the same broadcast network; and

7A and 7B Schematic diagrams depict a state of AF codes stored in AF memory and true AF memory, both of which form part of a memory present in the controller of the RDS receiver.

Preferred embodiments of this invention will now be described in detail with reference to the accompanying drawings. In 4 there is shown an RDS receiver for implementing the receive frequency selection method according to the present invention.

To 4 be from an antenna 1 received FM multiplex broadcast waves a front end 2 for selecting a desired broadcasting station, and thereby a broadcasting wave of the selected broadcasting station is converted into an intermediate frequency (IF) and an FM discriminator 3 fed.

The front end 2 is under the control of a PLL circuit 6 (Phase locked loop phase locked loop (PLL)) having a programmable frequency divider, a division ratio of which is described by a controller described in detail below 10 for provision the tuning operation is controlled.

A discriminated output of the FM discriminator 3 is by a noise eliminator 4 an MPX demodulator circuit 5 (MPX = multiplex) for deriving a left channel and an L channel signal and a right channel signal in the case of stereophonic broadcasting and after passing through audio muting circuits 13 and low frequency amplifiers 14 respective speakers 15 fed.

From the discriminated output of the FM discriminator 3 is passed through a 57 KHz bandpass filter 8th extracted an RDS data signal and an RDS decoder 9 fed. An output signal of the RDS decoder 9 will then be the controller 10 supplied to convert it into readable data. At the controller 10 Received information of the communicating broadcasting stations (the aforementioned data PI, AF, BS, TP, TA and the like) is stored in a memory 11 saved.

A level detector 7 detects a received signal level (electric field strength level) based on that of the FM discriminator 3 supplied IF signal level. In addition, a station detector detects 12 a broadcast station and outputs whenever an IF signal level exceeds a predetermined signal level and one of the S-curve characteristics of the FM discriminator 3 discriminated output within a range of predetermined levels remains, a station detection signal.

In this way, the level detector 7 detected received signal levels and those from the station detector 12 derived station detection signal to the controller 10 fed.

Operating levels of the controller 10 are based on the in the 5 and 6 shown flowcharts described.

In the first place, a method of registering AF data obtained from the currently in contact broadcasting station on the basis of 5 explained. It is assumed that, as described below in 7A show AF data obtained from present and past contact broadcasting stations by the operation of following the same broadcast program in a frequency local area within an AF memory 11a of the memory 11 are already stored, and that old / new receive counts are in a corresponding old / new receive counter area. In an in 7A f _B , f _C ... f _W denote an AF data list, and the old / new receive counts represent the reception of the broadcast waves, which is executed in such an order as to start the station B at the broadcast station A, the station C, the station D and then the station E passes through. The old / new reception counter is uniformly added with a single count (+1) every time the AF data is renewed by the operation of following the same broadcast program. In other words, the old / new reception counter is a counter for designating an old and new history of the AF data, with the larger the values, the older the AF data is.

In 5 become AF data from the RDS decoder at the initialization at step S1 9 is read, it is determined at step S2 whether the AF data is already in the AF memory 11a have been registered or not. If they have, the program goes to step S6 and resets the old / new receive counter to 0, while if it did not, it is determined in step S3 whether the AF memory 11a filled with the AF data or not. If not, the program goes to step S5, and the AF data becomes an empty area of the AF memory 11a registers, and thus at step S6, a value of the corresponding old / new reception counter is reset to 0.

If it is determined in step S3 that it is in memory 11a If there is no empty area for registering the AF data, the AF data of the maximum old / new receive count value or that in the AF memory is set in step S4 11a stored oldest AF data is deleted, and the program goes to step S5 and then implements the same steps as described above.

By implementing the operation steps described above, whenever the AF data is input, the new AF data is stored in the AF memory 11a registered.

Another preferred embodiment of the invention will be described with reference to FIGS 6 described. It is further assumed that in addition to the storage state of the in 7A shown AF memory 11a at the in 7B shown true (true) AF memory 11b of the memory 11 AF data f _A , f _B , f _C , f _D ... are stored which correspond to data of the frequencies of the broadcast radio waves actually broadcast by the broadcast stations during the operation of tracking the same broadcast program explosion.

Upon initialization of the operation steps, the sound muting is made in step S7 13 switched on. At step S8, by receiving all the broadcast waves whose frequencies match those in the true AF memory 11b and AF memory 11a stored AF data correspond on the basis of the level detector 7 derived receive signal levels and from the station detector 12 derived station detection signals determines the most suitable broadcasting station. Then, at step S9, it is determined whether or not the received signal level of the broadcasting broadcast wave broadcasted by the broadcasting station selected at step S8 is larger than that of the presently contacting broadcasting station. If it is not, the program goes to step 514 to receive the broadcast wave from the latest broadcast station, while if it is, at step S10 the broadcast wave of the best-selected broadcast station is received. It is then checked in step S11 whether or not the program identification code (PI code) of the best-selected broadcast station coincides with the stored PI code. If not, the program goes to step 514 to receive the broadcasting wave of the latest broadcasting station, while if so, in step S12, the AF data corresponding to the best-selected broadcasting station is registered to the true AF memory.

At step S13, the AF data already registered in the AF memory are held as they are, while at step S15, each old / new reception count is stored in the AF memory 11a is incremented by one (+1). Finally, in step S16, the sound mutes 13 switched off. The reception frequency of the RDS receiver for tracking the same broadcast program is now changed by the operation steps as described above.

As is described above when the program goes to step S14, the RDS receiver forced, that of the latest Broadcasting station to receive broadcast radio wave, and the Sound mutes are also turned off in step S16. In this case, the operation steps do not result in any implementation the tracking operation for the same broadcast program, and accordingly there is no change the reception frequency of the RDS receiver.

As in 3 it is shown when the motor vehicle which has selected the broadcasting station A as it passes through its broadcasting service area returns to the broadcasting service area of the broadcasting station A after traveling through the broadcasting service areas of the broadcasting stations B - C - D - E and the mountainous area AF data for the broadcasting station A is not included in a group of the AF data transmitted from the broadcasting station E, the car-mounted RBS receiver is able to select the broadcasting station A by the operation of following the same broadcasting program on the basis of the fact that, as in 7B shown, the AF data f _A for the broadcasting station A in the AF memory 11a and / or true AF memory 11b are stored.

At the in 6 In the illustrated embodiment, the received signal levels of the selected most appropriate broadcasting station and the latest broadcasting station are compared to determine which is greater in signal level, however, the received signal level of the latest broadcasting station may be substituted for a predetermined signal level to provide the RDS receiver with the Operation of pursuing the same broadcast program to provide the same benefits.

As has been described above according to the invention at least a part of the earlier transmitted radio stations transmitted list of alternative Frequency data stored in such a way that newly received alternative Frequency data in preference saved to others, and the saved alternatives Frequency data at the next Operation used to track the same radio program become. Therefore, even if the automobile is the broadcast network area once left, the RDS receiver possible to do the tracking operation of the same broadcast program based on the stored list from alternative frequency data when returning to the same broadcast area to resume.

In addition, will according to this Invention, even if a part of the stored list of alternatives Frequency data when filling of the memory area with the alternative frequency data of in To delete contact standing radio stations is the oldest delete alternative frequency data, and instead, newly obtained alternative frequency data saved. Accordingly, can be the RDS receiver execution the operation to follow the same radio program the return to the broadcast network in which the RDS receiver has the same broadcast program receive.

Claims (5)

A reception frequency selection method for an RDS receiver, comprising the steps of: receiving a list of RDS broadcast waves containing a list of alternative frequency data (AF) for a group of broadcast stations (AE) in the same broadcast network and program identification codes (PI) alternative frequency data for previously received broadcast stations in a memory of the RDS receiver, storing a list of alternative frequency data transmitted from the currently received broadcast station (AE) in addition to the stored list of alternative frequency data for previously received broadcast stations to provide a new list of alternative frequency data generating, tracking the same broadcasting program by varying a receiving frequency of the RDS receiver to a frequency corresponding to one of the list of alternative frequency data (AF) for presently and previously received broadcasting stations (AE), characterized in that the tracking step takes place to maintain a received signal level at or above a predetermined received signal level or that of the currently in contact broadcast station, and the new list has a count associated with each alternate frequency (AF), the method comprising the step of adding a single Counting evenly to the count value each time the alternative frequency data is renewed by the operation of following the same broadcast program, and setting the count value to zero for each of the alternative frequencies of the currently received broadcast station to provide an old and new history of the alternative frequency data The larger the counts, the older the alternative frequency data. The receive frequency selection method of claim 1, further characterized by storing the list of alternative frequency data transmitted from the currently received broadcast station in a memory ( 11a ) and alternative frequency data of the actually received broadcast waves in another memory ( 11b ). Reception frequency selection method according to claim 1 or 2, as well having the steps: Receive all broadcast waves that correspond with the stored list of alternative frequency data, and Choose a broadcasting station that has the highest signal level for reception a broadcast program. Reception frequency selection method according to claim 1, 2 or 3, as well the step of deleting the oldest stored alternative frequency data (AF) when saving having new alternative frequency data. The method of claim 1, 2, 3 or 4, wherein a List is saved from new alternative frequency data after a new frequency selected is.